Image processing method and apparatus and storage medium

ABSTRACT

The positional offset of an image is corrected without performing any processing for the setting of a reference position with respect to a document image, e.g., the setting of markings. Pieces of information about a reference image, including a reference position, are stored in a predetermined storage unit. Information about the input image is extracted from the input image, and a target position on the input image is calculated on the basis of the extracted information. In addition, a reference image with respect to the input image is specified on the basis of the information about the input image from the predetermined storage unit. The positional offset of the target position with respect to the reference position of the specified reference image is calculated. The positional offset of the input image with respect to the reference image is corrected on the basis of the calculated positional offset amount.

FIELD OF THE INVENTION

The present invention relates to an image processing method andapparatus for correcting the positional offset of an input image withrespect to a reference image and a storage medium.

BACKGROUND OF THE INVENTION

In the field of document processing in which a large quantity ofdocuments are processed collectively, documents are generally processedin accordance with document images to which pieces of processing controlinformation permanently set for the respective types of documents, i.e.,information indicating specific positions of documents at whichcharacter recognition is to be performed, information indicting specificareas of documents from which information is to be extracted, and thelike, are input.

In consideration of physical errors in a read mechanism and instabilityof paper documents themselves, it is almost impossible to read a largequantity of document images one by one accurately at the same positionby using a scanner. This tendency has recently become increasinglyconspicuous with an increase in the processing speed of scanners.

When processing is to be performed on the basis of permanent positionalinformation in this situation in the above manner, a decrease in theprecision of subsequent processing, e.g., character recognition, due toa positional offset is inevitable.

Conventionally, to prevent such a problem, positioning markings areformed on documents themselves to obtain the reference position of eachdocument, and various processes are performed on the basis of theposition of a predetermined processing target area relative to thereference position. Alternatively, the layout of a document itself isdesigned to set a large margin for a positional offset, or ahigh-resolution scanner is used.

The conventional document positional offset preventing method describedabove is subjected to strict constraints concerning document design. Ahigh-resolution scanner leads to an increase in cost. These factors havegreatly interfered with efficient document processing. Another seriousproblem is that it is almost impossible to apply this method to readprocessing systems for processing different types of documents, whichtend to become mainstream.

The present invention has been made in consideration of the aboveproblem, and has as its object to correct the positional offset of animage without performing any processing for the setting of a referenceposition with respect to a document image, e.g., the setting ofmarkings.

SUMMARY OF THE INVENTION

In order to achieve the object of the present invention, for example, animage processing apparatus of the present invention has the followingarrangement.

There is provided an image processing apparatus for correcting apositional offset of an input image with respect to a reference image,comprising storage means for storing information about the referenceimage, including a reference position, area information specifying meansfor obtaining information about a plurality of areas included in theinput image, target position calculating means for calculating a targetposition on the input image on the basis of the information obtained bythe area information specifying means, calculating means for specifyinginformation about the reference image in accordance with the input imageon the basis of information from the storage means, and calculating apositional offset between the reference position included in thespecified information and the target position, and correcting means forcorrecting positions of a plurality of areas included in the input imageby using the offset calculated by the calculating means.

In addition, the target position calculating means obtains a leftmostend/uppermost end position of a plurality of areas included in the inputimage and sets the position as the target position.

Furthermore, the target position calculating means further comprisesremoving means for removing an unstable area from a plurality of areasincluded in the input image, and calculates a target position for theinput image by using areas left after area removal performed by theremoving means.

Other features and advantages of the present invention will be apparentfrom the following description taken in conjunction with theaccompanying drawings, in which like reference characters designate thesame or similar parts throughout the figures thereof.

BRIEF DESCRIPTION OF THE DRAWINGS

The accompanying drawings, which are incorporated in and constitute apart of the specification, illustrate embodiments of the invention and,together with the description, serve to explain the principles of theinvention.

FIG. 1 is a block diagram showing the schematic arrangement of an imageprocessing apparatus according to the first embodiment of the presentinvention;

FIG. 2 is a flow chart for a case where a processor 4 processes onedocument;

FIG. 3 is a view for explaining the step of calculating an positionaloffset amount in the processor 4 and the step of correcting a processingposition;

FIG. 4 is a flow chart showing a procedure for calculating a documentorigin;

FIG. 5A is a view for explaining block selection;

FIG. 5B is a view for explaining block selection; and

FIG. 5C is a view for explaining block selection.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

Preferred embodiments of the present invention will now be described indetail in accordance with the accompanying drawings.

First Embodiment

FIG. 1 is a view showing the schematic arrangement of an imageprocessing apparatus according to the first embodiment, which performsdocument processing to be described later.

Reference numeral 2 denotes an image input means such as a scanner,camera, or file reading unit which inputs a document image; 4, aprocessor for performing document processing to be described later; 6, apointing device such as a keyboard or mouse which inputs instructions tothe processor 4; 8, a disk for storing reference data for documentrecognition or processing control information unique to a document; 10,a memory in which the processor 4 temporarily stores document processingdata or the document image read by the image input means 2 is stored;12, an output means such as a display or printer which outputs aprocessing result; and 14, a ROM storing program codes by which theprocessor 4 executes various processes.

The operation of the image processing apparatus in this embodimenthaving the above arrangement will be described next. First of all, inaccordance with the instructions input from the pointing device 6, thedocument image converted into an electronic form by the image inputmeans 2 is acquired and bitmapped in the memory 10. The bitmappeddocument image is subjected to area identification in the processor 4.Thereafter, document recognition, positional offset detection, andvarious document processes (character recognition and the like) areperformed for the document image. The processing result is outputthrough the output means 12 such as a display or printer.

Various control processes executed by the image processing apparatus ofthis embodiment, and more specifically, the processor 4 will bedescribed with reference to FIGS. 2 and 3.

FIG. 2 is a flow chart for a case where the processor 4 processes onedocument. The program codes conforming to the flow chart of FIG. 2 arestored in the ROM 14 and are read out and executed by the processor 4.With this operation, the image processing apparatus of this embodimentexecutes each process to be described later.

In step S200, the processor 4 receives a document image from the imageinput means 2 and transfers it as image data to the memory 10.

In step S202, the processor 4 performs area identification of thedocument image bitmapped in the memory 10 in step S200. This operationcan be implemented by applying the block selection technique and thelike disclosed in, for example, Japanese Patent Laid-Open No. 6-068301.In this operation, an area (block) having the same attribute on thedocument is extracted in accordance with the input image information,and area identification information such as an attribute, size, andposition is specified.

In step S204, document identification is performed to identify the inputdocument on the basis of the area identification information extractedin step S202.

In step S206, processing control information (including an originaldocument origin) unique to the document identified in step S204 isextracted from a database in the disk 8, and transferred to the memory10.

In step S208, an input document origin is generated from the areaidentification information extracted in step S202.

In step S210, the processor 4 calculates the amount of positional offset(document offset) between the input document origin obtained in stepS208 and the original document origin transferred into the memory 10 instep S206.

In step S212, the processor 4 corrects the positional information of thetarget area in the processing control information of the originaldocument by using the positional offset amount calculated in step S210.

Steps S210 and S212 will be described in detail later.

In step S214, the processor 4 performs various processes such ascharacter recognition on the basis of the positional information of thetarget area of the document corrected in step S212. Specificinstructions for such processes are stored in the processing controlinformation.

In step S216, the output means 12 outputs the results obtained by theprocesses performed in step S214.

FIG. 3 is a view for explaining the step of calculating a positionaloffset amount in the processor 4 in step S210 and the step of performingprocessing position correction in step S212.

The left side of FIG. 3 shows the state of an image when an originaldocument is registered in the above database. When the image to beregistered is read, area identification is performed for the read image.In the state indicated by the left side of FIG. 3, an OCR area and imageextraction area are identified and acquired as area identificationinformation. An original document origin is then determined by usingthis area identification information. In this embodiment, referring toFIG. 3, the original document origin is set to (50, 50) in the samemanner as the processing contents in step S208. This original documentorigin is registered as processing control information of thecorresponding document in the above database, together with an OCRapplication position (100, 100) in the OCR area in FIG. 3 and an imageextraction position (200, 400) in the image extraction area. Inaddition, in the case of this document, the size of the OCR area, acharacter recognition processing instruction, the size of the imageextraction area, and an extraction instruction are also registered asprocessing control information in the database.

The right side of FIG. 3 shows an example of the state where a documentto be processed is input. When the document to be processed is input,area identification is performed to identify an OCR area and imageextraction area (step S202), and the input document is identified (stepS204). An input document origin is then generated by using the areaidentification information acquired by area identification (step S208).When this input document origin is compared with the original documentorigin read out in step S206, the occurrence of a positional offsetbetween the image obtained when the original document is registered inthe database and the read position can be detected from the offsetbetween the original document origin position shown on the left side ofFIG. 3 and the input document origin position shown on the right side ofFIG. 3 (step S210).

In the step (step S210) of calculating a positional offset amount in theprocessor 4 with respect to this offset amount, the positional offsetamount is obtained by subtracting the original document origin from theinput document origin obtained in step S208 as indicated by the lowerportion of FIG. 3. In the processing position correction step (stepS212), the positional offset amount is added to the OCR applicationposition coordinates and image extraction position coordinates, therebyobtaining a more accurate processing application position (the OCRposition (160, 160) and image extraction position (260, 460)).

As described above, in the image processing method and apparatusaccording to this embodiment, even in batch processing of differenttypes of documents, the amount of positional offset caused between anoriginal document and an input document can be calculated by extractinguniversal features unique to a document and determining a documentorigin without relying on markings or the like in setting a referenceposition for document offset correction. This makes it possible tocorrect the document positional offset.

Second Embodiment

In the first embodiment, a document origin is set at an upper leftposition on a document. The present invention is not limited to this.For example, a document origin may be set at a lower right position orto the barycentric average of objects.

Third Embodiment

In this first embodiment, as processes in a document, characterrecognition and image extraction are used. However, the presentinvention is not limited to this. Obviously, the processes include anyinstructions associated with document processing, e.g., an imagecompression instruction, summarizing instruction, translationinstruction, read-aloud instruction, and seal-impression collationinstruction.

Fourth Embodiment

In this embodiment, an example of the step of calculating a documentorigin (original document origin and input document origin) in the firstembodiment will be described.

FIG. 4 is a flow chart showing the above processing. This processingwill be described below with reference to this flow chart.

In step S400, as blocks for the formation of a document origin from areaidentification information, blocks having a table attribute, textattribute, title attribute, and frame attribute are selected. As aresult, in the document image, block areas having the respectiveattributes can be specified, as shown in FIG. 5A.

In step S402, unstable blocks (text blocks containing noise in thisembodiment) are removed from the block areas selected in step S400. Inthis case, for example, character recognition is performed for each ofthe respective text blocks selected in step S400, and only blocks whoseaverage scores are equal to or more than a predetermined value are leftas text blocks for the formation of a document origin. Morespecifically, this operation is performed to remove a noise area itselfor a text block including a noise area because it degrades the documentorigin formation precision. FIG. 5B shows the resultant document image.

In step S404, the coordinates of the leftmost end and uppermost end ofthe block areas finally left after selection in steps S400 and S402 areobtained to determine a document origin (FIG. 5C).

A document origin can be calculated by the above method.

In step S404, the leftmost end and uppermost end coordinates areobtained from the remaining block areas. However, the rightmost endcoordinates or lowermost end coordinates may be obtained.

Fifth Embodiment

In the fourth embodiment, in step S400, areas having text, title, frame,and table attributes as block attributes are selected. The presentinvention is not limited to this. For example, only areas having tableand frame attributes or text and title attributes may be selected. Thatis, any combination of attributes can be set, and any block attributescan be set as long as they represent features of a document (cells in atable and the like).

Sixth Embodiment

In the fourth embodiment, in step S402, an average score of characterrecognition is used as a criterion for the removal of unstable areas.However, the present invention is not limited to this. For example,small character sizes or text area positions may be used as criteria.

Other Embodiment

The present invention may be applied to a system constituted by aplurality of devices (e.g., a host computer, an interface device, areader, a printer, and the like) or an apparatus comprising a singledevice (e.g., a copying machine, a facsimile apparatus, or the like).

The object of the present invention is realized even by supplying astorage medium storing software program codes for realizing thefunctions of the above-described embodiments to a system or apparatus,and causing the computer (or a CPU or an MPU) of the system or apparatusto read out and execute the program codes stored in the storage medium.In this case, the program codes read out from the storage medium realizethe functions of the above-described embodiments by themselves, and thestorage medium storing the program codes constitutes the presentinvention. The functions of the above-described embodiments are realizednot only when the readout program codes are executed by the computer butalso when the OS (Operating System) running on the computer performspart or all of actual processing on the basis of the instructions of theprogram codes.

The functions of the above-described embodiments are also realized whenthe program codes read out from the storage medium are written in thememory of a function expansion board inserted into the computer or afunction expansion unit connected to the computer, and the CPU of thefunction expansion board or function expansion unit performs part or allof actual processing on the basis of the instructions of the programcodes.

When the present invention is to be applied to the above storage medium,program codes corresponding to the flow charts (shown in FIG. 2 and/orFIG. 4) descried above are stored in the storage medium.

As has been described above, according to the present invention, thepositional offset of an image can be corrected without performing anyprocessing for the setting of a reference position with respect to adocument image, e.g., the setting of markings. This makes it possible toreduce the load imposed on the user in performing the correctionprocessing as compared with the prior art.

As many apparently widely different embodiments of the present inventioncan be made without departing from the spirit and scope thereof, it isto be understood that the invention is not limited to the specificembodiments thereof except as defined in the appended claims.

1. An image processing apparatus for correcting the positional offsetbetween an input image and a reference image, comprising: storage meansfor storing information about the reference image, including a referenceposition; area information specifying means for obtaining informationabout a plurality of areas included in the input image, the informationincluding left end coordinates and upper end coordinates of theplurality of areas; target position setting means for obtaining aleftmost end coordinate from among the left end coordinates of theplurality of areas included in the information obtained by said areainformation specifying means, obtaining an uppermost end coordinate fromamong the upper end coordinates of the plurality of areas, and settingthe obtained leftmost end coordinate and the uppermost end coordinate asa target position; calculating means for specifying information aboutthe reference image in accordance with the input image from said storagemeans, and calculating the positional offset between the referenceposition included in the specified information and the target positionset by said target position setting means; and correcting means forcorrecting positions of a plurality of areas included in the input imageby using the positional offset calculated by said calculating means. 2.The apparatus according to claim 1, wherein said area informationspecifying means extracts the plurality of areas based on attributesfrom the input image, and specifies information including attributes,sizes, and positional coordinates of the plurality of areas.
 3. Theapparatus according to claim 2, wherein the attributes include a tableattribute, text attribute, title attribute, and frame attribute.
 4. Theapparatus according to claim 1, wherein said target position settingmeans further comprises removing means for removing an unstable areafrom a plurality of areas included in the input image, and calculatesthe target position for the input image by using areas left after arearemoval is performed by said removing means.
 5. The apparatus accordingto claim 4, wherein the unstable area is a noise area.
 6. The apparatusaccording to claim 4, wherein said removing means removes an area havinga score less than a predetermined score from the plurality of areasincluded in the input image.
 7. An image processing method of correctinga positional offset between an input image and a reference image,comprising: an area information specifying step, of obtaininginformation about a plurality of areas included in the input image, theinformation including left end coordinates and upper end coordinates ofthe plurality of areas; a target position setting step, of obtaining aleftmost end coordinate from among the left end coordinates of theplurality of areas included in the information obtained in said areainformation specifying step, obtaining an uppermost end coordinate fromamong the upper end coordinates of the plurality of areas, and settingthe obtained leftmost end coordinate and the uppermost end coordinate asa target position; a calculating step, of specifying information aboutthe reference image, the information, being stored with a referenceposition in storage means in accordance with the input image from thestorage means, and calculating a positional offset between the referenceposition included in the specified information and the target positionset in said target position setting step; and a correcting step, ofcorrecting positions of a plurality of areas included in the input imageby using the positional offset calculated in said calculating step. 8.The method according to claim 7, wherein said target position settingstep further comprises a removing step of removing an unstable area froma plurality of areas included in the input image, and the targetposition for the input image is calculated by using areas left afterarea removal is performed in the removing step.
 9. A computer-readablestorage medium storing program codes for executing an image processingmethod of correcting a positional offset between an input image and areference image, comprising: a program code of an area informationspecifying step, of obtaining information about a plurality of areasincluded in the input image, the information including left endcoordinates and upper end coordinates of the plurality of areas; aprogram code of a target position setting step, of obtaining a leftmostend coordinate from among the left end coordinates of the plurality ofareas included in the information obtained in the area informationspecifying step, obtaining an uppermost end coordinate from among theupper end coordinates of the plurality of areas, and setting theobtained leftmost end coordinate and the uppermost end coordinate as atarget position; a program code of a calculating step, of specifyinginformation about the reference image, the information being stored witha reference position in storage means in accordance with the input imagefrom the storage means, and calculating a positional offset between thereference position included in the specified information and the targetposition set in the target position setting step; and a program code ofa correcting step, of correcting positions of a plurality of areasincluded in the input image by using the positional offset calculated inthe calculating step.
 10. The medium according to claim 9, wherein thetarget position setting step further comprises a removing step ofremoving an unstable area from a plurality of areas included in theinput image, and the target position for the input image is calculatedby using areas left after area removal is performed in the removingstep.